Replication-deficient adenoviral vectors were chosen for the expression of amiRNAs based on the assumption that net levels of amiRNA should increase upon exposure of the recombinant vector to wt adenovirus in infected cells. Provided the amiRNA was not capable of completely blocking viral DNA replication, amiRNA gene GPCR Compound Library copy numbers should increase upon onset of replication of the recombinant vector, which should be induced by E1A generated by the co-infecting wt adenovirus. Indeed, we found pTP-mi5 levels increased by ∼6-fold in A549 cells infected with wt Ad5 (Fig. 10A). To determine whether and to what extent pTP-mi5 inhibited the expression of
pTP during virus replication, we transduced A549 cells with the adenoviral pTP-mi5 expression vector AdTO-pTP-mi5x6 or its corresponding negative control amiRNA expression MK 1775 vector AdTO-mi-x6. Subsequently, we infected the cells with wt Ad5 and determined pTP mRNA levels at 24 h post-infection with wt Ad5 by RT-qPCR. As shown in Fig. 10B, pTP-mi5
expression decreased pTP mRNA levels by nearly 80% compared to the negative control amiRNA. To finally investigate whether pTP-mi5 was capable of inhibiting the replication of wt Ad5, we transduced A549 cells with AdTO-pTP-mi5x6 or the negative control vector AdTO-mi-x6 and infected them with wt Ad5. To assure that all cells were transduced with the recombinant vectors, we used rather high MOIs of 100 Farnesyltransferase TCID50/cell and transduced the cells with the recombinant vectors 24 h prior to infection with wt Ad5. Wt Ad5 genome copy numbers were determined at 0, 2, 4, and 6 days post-infection by real-time qPCR using a primer/probe set directed against a part of the E1A gene. As shown in Fig. 11A, wt Ad5 DNA levels were decreased by 1.24, 1.21, and 1.77 orders of magnitude (94.2%, 93.8%, and 98.4%) on days 2, 4, and 6, respectively, in cells expressing pTP-mi5, as compared to cells expressing the negative control amiRNA. The negative control amiRNA itself did not significantly inhibit wt Ad5 replication. As
a consequence of the inhibition of viral DNA synthesis, the generation of infectious wt Ad5 progeny was also heavily inhibited. The number of infectious wt Ad5 virions as determined by TCID50 analysis using A549 cells as indicator cells (which permitted the specific detection of wt Ad5 replication) was decreased by 2.6 orders of magnitude (99.8%) in cultures transduced with the pTP-mi5-expressing vector compared to control cultures expressing the negative control amiRNA (Fig. 11B). The amiRNA-mediated inhibitory effect on wt Ad5 DNA replication was also revealed when the cells were infected with wt Ad5 at higher MOIs of up to 100 TCID50/cell (Supplementary Fig. 2). No differences were observed for MOIs ranging between 0.01 and 1 (Supplementary Fig. 2A–C). At higher MOIs of 10 and 100 (Supplementary Fig.